Byungyun Moon scite author profile

Superhydrophobic (SHPo) surfaces can provide high condensation heat transfer due to facilitated droplet removal. However, such high performance has been limited to low supersaturation conditions due to surface flooding. Here, we quantify flooding resistance defined as the rate of increase in the fraction of water-filled cavities with respect to the supersaturation level. Based on the quantitative understanding of surface flooding, we suggest effective anti-flooding strategies through tailoring the nanoscale coating heterogeneity and structure length scale. Experimental verification is conducted using CuO nanostructures having different length scales combined with hydrophobic coatings with different nanoscale heterogeneities. The proposed antiflooding SHPo can provide a ∼130% enhanced average heat transfer coefficient with ∼14% larger supersaturation range for droplet jumping compared to a previous CuO SHPo. The proposed anti-flooding parameter and the scalable SHPo will help develop high-performance condensers for real-world applications operating in a wide range of supersaturation levels.

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Influence of lubricant-mediated droplet coalescence on frosting delay on lubricant impregnated surfaces

Seo

Moon

et al. 2019

International Journal of Heat and Mass Transfer

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Byungyun Moon

Passive Anti-Flooding Superhydrophobic Surfaces

Influence of lubricant-mediated droplet coalescence on frosting delay on lubricant impregnated surfaces

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